CN103736573B - A kind of Ceramic Material grinding system - Google Patents

Abstract

The open a kind of Ceramic Material grinding system of the present invention, include pay-off, raise belt, vertical lapping machine, screening machine and ball mill, described pay-off is connected with the rising belt being positioned at vertical lapping machine side through primary supply line, is connected the feeding mouth of described vertical grinder by the other end of described rising belt；Described de-iron sieve is arranged at the rotating discharge Hatch Opening of described vertical lapping machine, and one end of described secondary transportation line connects the discharging opening of described de-iron sieve, the other end and described screening machine together with；One end of described screening machine connects the one end of supply line of refacing, and the other end connects ball milling supply line, described in the reface other end of supply line connect one end of described rising belt, the other end of described ball milling supply line connects described ball mill.

Description

A kind of Ceramic Material grinding system

Technical field

The present invention relates to ceramic machinery field, particularly relate to a kind of Ceramic Material grinding system.

Background technology

In traditional Production of Ceramics equipment, ball mill is mainly used to carry out the milled processed of raw material, ball mill Mainly by the percussion of abrasive body (such as steel ball, cobblestone etc.) fallen and abrasive body and ball milling The abrasive action of inwall and by crushing material and mix, Ball-milling Time length, inefficiency, energy consumption are big.

Summary of the invention

It is an object of the invention to propose a kind of milling time short, the Ceramic Material that work efficiency is high grinds system System.

For reaching this purpose, the present invention is by the following technical solutions.

A kind of Ceramic Material grinding system, includes pay-off, raises belt, vertical lapping machine, screening Machine and ball mill, described pay-off is through primary supply line and the rising belt being positioned at vertical lapping machine side It is connected, is connected the feeding mouth of described vertical grinder by the other end of described rising belt；Described go Ferrum sieve is arranged at the rotating discharge Hatch Opening of described vertical lapping machine, and one end of described secondary transportation line connects institute State the discharging opening of de-iron sieve, the other end and described screening machine together with；One end of described screening machine connects refaces One end of supply line, the other end connect ball milling supply line, described in reface supply line the other end connect described liter One end of high belt, the other end of described ball milling supply line connects described ball mill；

Described vertical lapping machine includes that grinding cavity, grinding roller, mill, batch can, high position sensor and low level passes Sensor, described grinding roller and mill be arranged in described grinding pot body, and described grinding roller is arranged on the top of mill, And and mill maintain the interval of 3-8cm, described grinding roller uses driven design, mill drive；Described material Tank is arranged on the top of described mill, and matches with described mill, and blanking is on described mill；Described height Level sensor and low sensors are opposed to be arranged on the blanking end lateral wall of batch can up and down, described high-order biography Sensor and low sensors electrically connect described pay-off；The rotating speed of described mill is 39.8r/min, described A diameter of 1700mm of grinding roller；

Described screening machine includes material bin, discharge bucket, belt conveyor, shelves limit, dust cover and is placed in institute State the double deck screen in dust cover, described belt conveyor, dust cover, double deck screen and rib all with identical inclination Mode is installed, and the arrival end of described double deck screen is higher than its port of export, and described rib is correspondingly arranged under double deck screen Side, and be positioned at outside dust cover, and dock mutually with the bottom blanking port of described dust cover, described belt conveyor pair The lower section of rib should be located at, and be connected with one end of described rib,；Described supply line of refacing is arranged on defeated Send the lower section of one end that belt is higher；Described double deck screen is 20 by the coarse filtration Intranet cylinder that density is 5 mesh and density Purpose fine filtering outer net cylinder is nested and forms, and is driven by motor and rotates, and described double deck screen is with the speed of 15r/min Rotating, described coarse filtration Intranet cylinder and fine filtering outer net cylinder maintain the interval of 15cm, described fine filtering outer net cylinder straight Footpath is 1350mm；The side of described dust cover is provided with the material bin that the arrival end with double deck screen matches, and institute State in the charging nozzle that the discharge end of material bin puts in coarse filtration Intranet cylinder, the opposite side of described dust cover be provided with The port of export of double deck screen is provided with discharge bucket, and one end of described discharge bucket is arranged under described fine filtering outer net cylinder Side, the other end is arranged at the top of described ball milling supply line.

The present invention is coordinated by vertical lapping machine and ball mill so that it is each makes the most of the advantage, thus reaches The purposes such as saving time, energy consumption.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of one of them embodiment of the present invention；

Fig. 2 is the schematic diagram of the vertical lapping machine of one of them embodiment of the present invention；

Fig. 3 is the schematic diagram of the screening machine of one of them embodiment of the present invention；

Detailed description of the invention

Further illustrate technical scheme below in conjunction with the accompanying drawings and by detailed description of the invention.

A kind of Ceramic Material grinding system, include pay-off 1, raise belt 2, vertical lapping machine 3, Screening machine 4 and ball mill 6, described pay-off 1 through primary supply line 7 be positioned at vertical lapping machine 3 one The rising belt 2 of side is connected, and connects described vertical grinder 3 by the other end of described rising belt 2 Feeding mouth；Described de-iron sieve is arranged at the rotating discharge Hatch Opening of described vertical lapping machine 3, described secondary One end of supply line 8 connects the discharging opening of described de-iron sieve, the other end and described screening machine 4 together with；Institute The one end stating screening machine 4 connects the one end of supply line 9 of refacing, and the other end connects ball milling supply line 10, described The other end of supply line 9 refaced connects one end of described rising belt 2, another of described ball milling supply line 10 End connects described ball mill 6.Owing to Ceramic Material with some metal impurities, particularly ferrum, so Arrange de-iron sieve to make, after Vertical Mill, raw material is carried out de-iron work.

The present invention is directed to physical composition and the feature of Production of Ceramics processing technique of Ceramic Material, material is entering Before ball mill 6, first use vertical lapping machine 3 that sand material is carried out coarse crushing.For sand material, use The vertical lapping machine 3 being applicable to Ceramic Material that this project is developed crushes, and makes material be broken into particle thin The granule that degree is uniformly, particle fineness is little.Because receiving extruding, the granule that part is tiny in first shattering process It is to exist with sheet strip, creates crackle inside these granules, be also more prone to grind after entering ball mill 6 Mill.Sand material, after above process, is re-fed into ball mill 6 and is ground, make material be directly entered ball milling In the grinding stage of machine 6, avoid the ball mill 6 big energy consumption at first crushing stage, highly shortened material Ball milling duration, greatly reduce the energy consumption of ball mill 6.

Described vertical lapping machine 3 includes grinding cavity 31, grinding roller 32, mill 33, batch can 34, high-order biography Sensor 38 and low sensors 39, described grinding roller 32 and mill 33 be arranged in described grinding tank body 31, Described grinding roller 32 is arranged on the top of mill 33, and and mill 33 maintain the interval of 3-8cm, described mill Roller 32 uses driven design, mill 33 drive；Described batch can 34 is arranged on the top of described mill 33, And match with described mill 33, blanking is on described mill 33；Described high position sensor 38 and low level pass Sensor about 39 is opposed to be arranged on the blanking end lateral wall of batch can 4, described high position sensor 38 and low Level sensor 39 electrically connects described pay-off 1；The rotating speed of described mill is 39.8r/min, described grinding roller A diameter of 1700mm of 32.High position sensor 38 is set and low sensors 39 is to ensure that vertical grinding Machine 3 is maintained at optimal workload, and output is default scope, when the material stock grinding cavity 31 During less than low sensors 39, pay-off 1 will strengthen feeding；When the material stock grinding cavity 31 is higher than During high position sensor 38, pay-off 1 will reduce feeding so that the material stock ground in cavity 31 is maintained at In the range of He Li, it is ensured that Grinding Quality.The rotating speed of mill can not be too fast or the slowest, too fast if can make Each component deterioration ground is fast, and it is serious to generate heat, and show that through practice the rotating speed of mill is 39.8r/min is the most rational scheme.

Described screening machine 4 includes material bin 41, discharge bucket 42, belt conveyor 43, shelves limit 48, dust-proof Cover 46 and be placed in the double deck screen 47 in described dust cover 46, described belt conveyor 43, dust cover 46, double Layer sieve 47 is all installed with identical angled manner with rib 48, and the arrival end of described double deck screen 47 goes out higher than it Mouth end, described rib 48 is correspondingly arranged at the lower section of double deck screen 47, and is positioned at outside dust cover 46, and with described The bottom blanking port of dust cover 46 docks mutually, and described belt conveyor 43 is correspondingly arranged at the lower section of rib 48, and Being connected with one end of described rib 48, arranging dust cover 46 can effectively raise when operating by baffle double deck screen 47 The powder risen；Described supply line 9 of refacing is arranged on the lower section of the higher one end of belt conveyor 43；Described bilayer Sieve 47 is nested by the coarse filtration Intranet cylinder 49 that density is 5 mesh and fine filtering outer net cylinder 410 that density is 20 mesh and forms, Being driven by motor and rotate, described double deck screen 47 rotates with the speed of 15r/min, described coarse filtration Intranet cylinder 49 With fine filtering outer net cylinder 410 maintains the interval of 15cm, a diameter of 1350mm of described fine filtering outer net cylinder 410； The side of described dust cover 46 is provided with the material bin 41 that the arrival end with double deck screen 47 matches, and described in enter The discharge end of hopper 41 puts in the charging nozzle of coarse filtration Intranet cylinder 49, and the opposite side of described dust cover 46 sets Have the port of export with double deck screen 47 to be provided with discharge bucket 42, one end of described discharge bucket 42 be arranged at described carefully The lower section of filter outer net cylinder 410, the other end is arranged at the top of described ball milling supply line 10.During running, pass through Powder after vertical lapping machine 3 is ground enters the inside of double deck screen 47, double deck screen 47 by material bin 41 Rotating and make to fall to belt conveyor 43 less than the powder of 20 mesh, belt conveyor 43 is transported to mill transport Line 10；Then tumble to discharge bucket 42 more than the powder of 20 mesh and be delivered to supply line 9 of refacing, again sending Grind to vertical lapping machine 3.Coarse filtration Intranet cylinder 49 and the double deck screen 47 of fine filtering outer net cylinder 410 are set, can To avoid the too fast damage of fine filtering outer net cylinder 410, some big granules can directly by coarse filtration Intranet cylinder 49 every Go out, decrease the workload of fine filtering outer net cylinder 410.

The know-why of the present invention is described above in association with specific embodiment.These describe and are intended merely to explain this The principle of invention, and limiting the scope of the invention can not be construed to by any way.Based on herein Explaining, those skilled in the art need not pay performing creative labour can associate other tool of the present invention Body embodiment, within these modes fall within protection scope of the present invention.

Claims (1)

1. a Ceramic Material grinding system, it is characterised in that: include pay-off (1), Raise belt (2), vertical lapping machine (3), screening machine (4) and ball mill (6), described Pay-off (1) through primary supply line (7) be positioned at vertical lapping machine (3) side Raising belt (2) to be connected, the other end of described rising belt (2) connects described vertical grind The feeding mouth of grinding machine (3)；It is provided with at the rotating discharge Hatch Opening of described vertical lapping machine (3) De-iron sieves, and one end of secondary transportation line (8) connects the discharging opening of described de-iron sieve, the other end It is connected with described screening machine (4)；One end of described screening machine (4) connects supply line of refacing (9) one end, the other end connects ball milling supply line (10), described in reface supply line (9) The other end connect described rising belt (2) one end, described ball milling supply line (10) The other end connects described ball mill (6)；

Described vertical lapping machine (3) include grind cavity (31), grinding roller (32), mill (33), Batch can (34), high position sensor (38) and low sensors (39), described grinding roller (32) Being arranged in grinding cavity (31) with mill (33), described grinding roller (32) is arranged on mill (33) top, and and mill (33) maintain the interval of 3-8cm, described grinding roller (32) Use driven design, mill (33) drive；Described batch can (34) is arranged on described mill (33) top, and match with described mill (33), blanking is in described mill (33) On；Described high position sensor (38) and low sensors (39) are opposed to be arranged on material up and down On the blanking end lateral wall of tank (4), described high position sensor (38) and low sensors (39) Electrically connect described pay-off (1)；The rotating speed of described mill is 39.8r/min, described grinding roller (32) a diameter of 1700mm；

Described screening machine (4) includes material bin (41), discharge bucket (42), belt conveyor (43), rib (48), dust cover (46) and be placed in described dust cover (46) double Layer sieve (47), described belt conveyor (43), dust cover (46), double deck screen (47) and gear Limit (48) is all installed with identical angled manner, and the arrival end of described double deck screen (47) is higher than Its port of export, described rib (48) is correspondingly arranged at the lower section of double deck screen (47), and is positioned at anti- Dust hood (46) outward, and docks mutually with the bottom blanking port of described dust cover (46), described defeated Send belt (43) to be correspondingly arranged at the lower section of rib (48), and with the one of described rib (48) End is connected；Described supply line of refacing (9) is arranged on one end that belt conveyor (43) is higher Lower section；Described double deck screen (47) is by coarse filtration Intranet cylinder (49) that density is 5 mesh and density It is that fine filtering outer net cylinder (410) of 20 mesh is nested and forms, is driven by motor and rotate, described double Layer sieve (47) rotates, outside described coarse filtration Intranet cylinder (49) and fine filtering with the speed of 15r/min Net cylinder (410) maintains the interval of 15cm, described fine filtering outer net cylinder (410) a diameter of 1350mm；The arrival end that the side of described dust cover (46) is provided with double deck screen (47) matches The material bin (41) closed, and the discharge end of described material bin (41) puts in coarse filtration Intranet cylinder (49) Charging nozzle in, the opposite side of described dust cover (46) is provided with and the going out of double deck screen (47) The discharge bucket (42) of mouth end connection, one end of described discharge bucket (42) is arranged at described fine filtering The lower section of outer net cylinder (410), the other end is arranged at the top of described ball milling supply line (10).